International Interbond 1202UPC (Universal Pipe Coating) is the universal pipe coating that reduces specification complexity and project costs. Suitable for protecting above-ground piping and accessories in new construction process plant operating at temperatures between -196ºC (-321ºF) to +650ºC (1202ºF).
Single specification for the corrosion protection of large amounts of process piping and accessories (e.g. valves, instrumentation and other associated OEM).
International Interbond 1202UPC reduces paint complexity and overall painting costs of new construction projects.
Designed as a two coat or single coat application to carbon or stainless steel for long term corrosion protection.
Suitable for use on surfaces either un-insulated or under thermal insulation and for the protection of cryogenic piping and equipment. Not suitable for buried service
International Interbond 1202UPC (Universal Pipe Coating) is a two component, ambient cure, titanium modified inorganic copolymer based on unique titanium modified inorganic copolymer technology ideal for piping and OEM manufacturers. International Interbond 1202UPC is the universal pipe coating that reduces specification complexity and project costs.
Intended Uses
Suitable for protecting above-ground piping and accessories in new construction process plant operating at temperatures between -196ºC (-321ºF) to +650ºC (1202ºF).
Single specification for the corrosion protection of large amounts of process piping and accessories (e.g. valves, instrumentation and other associated OEM).
International Interbond 1202UPC reduces paint complexity and overall painting costs of new construction projects.
Designed as a two coat or single coat application to carbon or stainless steel for long term corrosion protection.
Suitable for use on surfaces either un-insulated or under thermal insulation and for the protection of cryogenic piping and equipment. Not suitable for buried service.
Features & Benefits
Two component coating delivering temperature resistance and corrosion protection up to 650ºC (1202ºF)
Provides protection against corrosion under insulation (CUI)
Crack resistant during transit
Resistant to thermal shock
Suitable for cryogenic equipment
Product Details
HTA126
Data sheet
Manufacturer
International
For Use On
Carbon Steel, Stainless Steel
Application Method
Spray
Sheen
Matt
Colour
Standard / Ready Mixed
Single, Two or Three Pack
Two-Pack
Pack Size
15L
Application
Spray
Coverage
5.60 m²/litre at 100 microns d.f.t and stated volume solids
Customer agrees that before placing an Order, Customer has read and understood the most up to date Product Data Sheet for the Product. Where we have access to the Product Data Sheet from the manufacturer, we will either provide a copy on request, or include a link to the Product Data Sheet available on the manufacturer’s website. Customer further agrees that we have no liability for any errors or omissions contained within the Product Data Sheets. For more information, please see our Terms & Conditions of Sale.
These surface preparation kits for steel have been created to help provide customers with an easily accessible bundle of tools to aid in the preparation of steel surfaces in accordance with ISO 8501-1 (St2/3) and SSPC (SP 2/3).
Please click here for important information about these kits.
Kit Contents:
SET 1 (Hand Tools)
1 x Rust-Oleum...
• These colour samples are to be used for guidance only.
• Product contained within is generic to provide a close representation to your chosen colour.
• Should not be used to carry out any painting project, this is for colour selection purposes only and does not remove the need for you to ensure the correct product is chosen and tested for your application once a colour has been decided on.
• It is not a sample of the product you intend to purchase/use and cannot be used to test anything other than colour appearance.
• Notwithstanding any other provision of our conditions of sale, you agree and understand that many factors affect the colour of a painted product, including lighting, sheen level, method of application, batches variances number of coats and substrate surface.
• We cannot therefore promise that the colour of the product you ultimately purchase will exactly match the colour of this colour sample.
• Once you have selected a colour, you must purchase the smallest amount of the product you intend to use in your chosen colour and apply to a small, inconspicuous test area to be sure that it meets your expectations.
• Leave the product for 24 hours and then only buy more paint and/or apply more paint if you are completely happy with the results on the test area.
• We cannot be liable to you for any loss or damage if you have not complied with this process.
Colourmatch Service Disclaimer
• Notwithstanding any other provision of our conditions of sale, you agree and understand that many factors affect the colour of a painted product, including lighting, sheen level, method of application and product surface.
• We cannot therefore promise that the colour of the product you paint with the Kolorbond paint will exactly match the colour of the item you send to us.
• You must therefore purchase the smallest Kolorbond paint pot available first and then apply the paint to a small, and where possible hidden, test area of your product to be sure that it meets your expectations.
• Leave the product for 24 hours and then only buy more paint and/or apply more paint to your product if you are completely happy with the results on the test area.
• We cannot be liable to you for any loss or damage if you have not complied with this process.
*All estimates are based on theoretical consumption rates for a single coat and do not take into account any substrate deviations or wastage
*All estimates are based on theoretical consumption rates for a single coat and do not take into account any substrate deviations or wastage
*All estimates are based on theoretical consumption rates for a single coat and do not take into account any substrate deviations or wastage
*All estimates are based on theoretical consumption rates for a single coat and do not take into account any substrate deviations or wastage
*All estimates are based on theoretical consumption rates for a single coat and do not take into account any substrate deviations or wastage
*All estimates are based on theoretical consumption rates for a single coat and do not take into account any substrate deviations or wastage
*All estimates are based on theoretical consumption rates for a single coat and do not take into account any substrate deviations or wastage
*All estimates are based on theoretical consumption rates for a single coat and do not take into account any substrate deviations or wastage
*All estimates are based on theoretical consumption rates for a single coat and do not take into account any substrate deviations or wastage
*All estimates are based on theoretical consumption rates for a single coat and do not take into account any substrate deviations or wastage
*All estimates are based on theoretical consumption rates for a single coat and do not take into account any substrate deviations or wastage
*All estimates are based on theoretical consumption rates for a single coat and do not take into account any substrate deviations or wastage
*All estimates are based on theoretical consumption rates for a single coat and do not take into account any substrate deviations or wastage
*All estimates are based on theoretical consumption rates for a single coat and do not take into account any substrate deviations or wastage
*All estimates are based on theoretical consumption rates for a single coat and do not take into account any substrate deviations or wastage
*All estimates are based on theoretical consumption rates for a single coat and do not take into account any substrate deviations or wastage
*All estimates are based on theoretical consumption rates for a single coat and do not take into account any substrate deviations or wastage
*All estimates are based on theoretical consumption rates for a single coat and do not take into account any substrate deviations or wastage
*All estimates are based on theoretical consumption rates for a single coat and do not take into account any substrate deviations or wastage